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CN106316774A - Preparation of 1234yf by catalytic vapor phase fluorination of 1233xf - Google Patents

Preparation of 1234yf by catalytic vapor phase fluorination of 1233xf Download PDF

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Publication number
CN106316774A
CN106316774A CN201610663272.9A CN201610663272A CN106316774A CN 106316774 A CN106316774 A CN 106316774A CN 201610663272 A CN201610663272 A CN 201610663272A CN 106316774 A CN106316774 A CN 106316774A
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catalyst
logistics
fluorination
fluoro
chloro
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D.杜尔-伯特
L.温德林格
A.皮加莫
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Arkema France SA
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Arkema France SA
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    • CCHEMISTRY; METALLURGY
    • C07ORGANIC CHEMISTRY
    • C07CACYCLIC OR CARBOCYCLIC COMPOUNDS
    • C07C17/00Preparation of halogenated hydrocarbons
    • C07C17/07Preparation of halogenated hydrocarbons by addition of hydrogen halides
    • C07C17/087Preparation of halogenated hydrocarbons by addition of hydrogen halides to unsaturated halogenated hydrocarbons
    • CCHEMISTRY; METALLURGY
    • C07ORGANIC CHEMISTRY
    • C07CACYCLIC OR CARBOCYCLIC COMPOUNDS
    • C07C17/00Preparation of halogenated hydrocarbons
    • C07C17/093Preparation of halogenated hydrocarbons by replacement by halogens
    • C07C17/20Preparation of halogenated hydrocarbons by replacement by halogens of halogen atoms by other halogen atoms
    • C07C17/202Preparation of halogenated hydrocarbons by replacement by halogens of halogen atoms by other halogen atoms two or more compounds being involved in the reaction
    • C07C17/206Preparation of halogenated hydrocarbons by replacement by halogens of halogen atoms by other halogen atoms two or more compounds being involved in the reaction the other compound being HX
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01JCHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
    • B01J27/00Catalysts comprising the elements or compounds of halogens, sulfur, selenium, tellurium, phosphorus or nitrogen; Catalysts comprising carbon compounds
    • B01J27/06Halogens; Compounds thereof
    • B01J27/132Halogens; Compounds thereof with chromium, molybdenum, tungsten or polonium
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P20/00Technologies relating to chemical industry
    • Y02P20/50Improvements relating to the production of bulk chemicals
    • Y02P20/582Recycling of unreacted starting or intermediate materials

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  • Chemical & Material Sciences (AREA)
  • Organic Chemistry (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Engineering & Computer Science (AREA)
  • Materials Engineering (AREA)
  • Organic Low-Molecular-Weight Compounds And Preparation Thereof (AREA)

Abstract

The invention provides a method for the preparation of 1234yf. The method includes the following steps: (i) in the presence of a fluorination catalyst, 1233xf is allowed to be in contact with HF in the gas phase under the conditions sufficient to produce reaction mixtures; (ii) the reaction mixtures are divided into a first material flow including HCl and1234yf, and a second material flow including HF and unreacted 1233xf and 245cb; (iii) at least one part of the second material flow is partially recycled for executing the step (i). The invention further provides another method for preparing 1234yf. The method comprises the following steps: (i) in the presence of a fluorination catalyst, 1233xf is allowed to be in contact with HF in the gas phase under the conditions sufficient to produce reaction mixtures; (ii) the reaction mixtures are divided into HCl and a material flow including fluorides; (iii) the material flow including fluorides is divided into a first material flow including 1234yf, and a second material flow including HF and unreacted 1233xf and 245cb; (iv) at least one part of the second material flow is partially recycled for executing the step (i).

Description

The catalytic vapor phase fluorination of 1233xf to 1234yf
The application is based on filing date December in 2009 23 days, and Application No. 200980163125.3 is invention entitled: The divisional application of the patent application of " catalytic vapor phase fluorination of 1233xf to 1234yf ".
Technical field
The present invention relates to the chloro-3,3,3-of 2-tri-fluoro-1-propylene (1233xf) gas phase catalytic fluorination to manufacture 2,3,3,3-tetra- Fluoropropene (1234yf).More particularly it relates to wherein by optionally contain the 1233xf of low-level polymerization inhibitor with The method that fluohydric acid gas (HF) contacts to manufacture 1234yf in gas phase is reacted in the presence of a fluorination catalyst.Required product The known purposes having as foaming agent, cold-producing medium, aerosol propellant, heat transfer medium, fire extinguisher etc. of 1234yf.Additionally, 1234yf is known has zero ozone depletion potential (ODP) and the low-down global warming up trend (GWP) much smaller than 150.
Background technology
Montreal Protocol for Ozonosphere protection requires to taper off use Chlorofluorocarbons (CFCs) (CFC).To ozone layer more The material of " friendly " such as hydrogen fluorohydrocarbon (HFC) such as HFC-134a replaces Chlorofluorocarbons (CFCs).Latter compound has proved to be and causes the whole world The greenhouse gases warmed, and by the Kyoto Protocol control about climate change.Along with the lasting pass for Global climate change , there is exploitation replacement and there is the technology of those of high ozone loss potentiality (ODP) and high global warming up trend (GWP) day by day in note The demand increased.Although the hydrogen fluorohydrocarbon (HFC) as non-ozone depletion compound has been considered as solvent, abluent and biography The Chlorofluorocarbons (CFCs) (CFC) of hot fluid and the substitute of hydrogen chlorine-fluorine hydrocarbon (HCFC), but they still tend to have significant GWP.Hydrogen Fluoroolefins (HFO) is considered the potential substitute with zero odp and low GWP.
Therefore, many documents provide such HFO.
The method preparing HF hydrocarbon is known.Such as, WO 2007/079431 disclose manufacture fluorinated olefins (include Hydrofluoropropenes) method.The described method being broadly described as single reaction or two or more reactions relates to formula C (X)mCCl(Y)nC(X)mCompound fluorination for formula CF3At least one compound of CF=CHZ, wherein X, Y and Z are each independently It is 0 or 1 that H, F, Cl, I or Br and m each stand alone as 1,2 or 3 and n.By 1233xf is fluorinated as 1,1,1,2-tetra-fluoro-2-chlorine Propane (HFC244bb), dehydrochlorination subsequently, prepare 1234yf.By corresponding chlorinated precursor (CCl2=CClCH2Cl) three Fluorination preparation 1233xf.
In many probabilities, EP-A-939071 discloses halogenated propene (list according to very long) gas phase fluorination For fluorinated acrylamide (including 1234yf in lists).
WO 2008/054781 discloses by optionally making halogenopropane or propylene halide and HF in the presence of a catalyst React and manufacture the multiple method of multiple fluoro-propane and halo fluoropropene.It discloses by special at catalyst in the presence of hf It it not the method reacted 2,3-bis-chloro-1,1,1-trifluoro propane (243db) on Cr/Co 98/2 and manufacture 1234yf.Product Including chloro-3,3, the 3-tri-fluoro-1-propylene (1233xf) of 1234yf and 2-, the latter is primary product;Other product is 1-chloro-3,3, 3-tri-fluoro-1-propylene (1233zd) and 245cb and 1234ze also formed.
WO 2008/002500 discloses by 1,1,1,2,3-pentafluoropropane (HFC 245eb) at Dehydrofluorination catalyst On catalyzed conversion manufacture 2,3,3,3-tetrafluoro-1-propene (HFO 1234yf) and 1,3,3,3-tetrafluoro-1-propene (HFO The method of mixture 1234ze).
WO 2008/040969 discloses a kind of method, including being 1233 (xf and zd) by 243db dehydrochlorination, subsequently Carry out relating to forming the fluoro-2 cbloropropane isopropyl chloride of 1,1,1,2-tetra-(244bb) and forming required 2,3,3,3-by dehydrochlorination subsequently The reaction of tetrafluoro-1-propene.The embodiment 1 of described document disclose under atmospheric pressure 243db Yu HF at Zn/ chromium oxide catalyst On gas phase reaction, be consequently formed 1234yf and 1233xf and a small amount of 245cb.The embodiment 2 of described document discloses Under atmospheric pressure, the reaction of the 245cb gas phase on same catalyst (5 seconds times of contact) in the presence of hf, is consequently formed 1234yf。
It can be 1,1,2,3-tetra-chloro-1-propylene (1230xa), 1,1,1,2,3-pentachloro-third that WO 2009/015317 discloses The chlorinated compound of alkane (240db) or 2,3,3,3-tetra-chloro-1-propylene (1230xf) and HF the most on a catalyst and Reaction in the presence of at least one stabilizer.The method allows to obtain the fluoro-1-propylene of the chloro-3,3,3-of 2-tri-(1233xf).
US 2009/0240090 discloses by formula (I) CX2=CClCH2X or formula (II) CX3CCl=CH2Or formula (III) CX3CHClCH2The compound of X (wherein X=F, Cl, Br, I) starts to manufacture the side of 2,3,3,3-tetrafluoro-1-propene (1234yf) Method.Described method includes three steps, can be purified subsequently.Described method includes allowing following again of more high conversion and productivity Ring step.
Summary of the invention
The present invention is provided to prepare 2, the method for 3,3,3-tetrafluoropropenes (1234yf), including:
(i) in the presence of a fluorination catalyst under conditions of being enough to produce reactant mixture by fluoro-for chloro-for 2-3,3,3-tri- 1-propylene (1233xf) contacts in the gas phase with fluohydric acid gas HF;
(ii) described reactant mixture is divided into include the first logistics of HCl, 2,3,3,3-tetrafluoropropene (1234yf) with Including HF, the fluoro-1-propylene of the chloro-3,3,3-of unreacted 2-tri-(1233xf) and 1,1,1,2,2-pentafluoropropane (245cb) Two logistics;
(iii) at least one of second logistics is recycled back into step (i) at least in part.
In one embodiment, described first logistics is further separated into HCl and 2,3,3,3-tetrafluoropropenes (1234yf), Preferably with distilation steps.
The present invention also provides for the method for preparing 2,3,3,3-tetrafluoropropenes (1234yf), including:
(i) in the presence of a fluorination catalyst under conditions of being enough to produce reactant mixture by fluoro-for chloro-for 2-3,3,3-tri- 1-propylene (1233xf) contacts in the gas phase with fluohydric acid gas HF;
(ii) described reactant mixture is divided into HCl and the logistics containing fluorinated product;
(iii) the described logistics containing fluorinated product is divided into includes the first thing of 2,3,3,3-tetrafluoropropene (1234yf) Flow and include HF, the fluoro-1-propylene of the chloro-3,3,3-of unreacted 2-tri-(1233xf) and 1,1,1,2,2-pentafluoropropane (245cb) The second logistics;
(iv) at least one of second logistics is recycled back into step (i) at least in part.
Embodiment is as follows:
-described the reactant mixture that obtains in step (i) includes mol ratio 1:5-3:1, the 2,3,3,3-of preferred 1:4-2:1 Tetrafluoropropene (1234yf) and 1,1,1,2,2-pentafluoropropane (245cb).
-described the reactant mixture that obtains in step (i) includes 2,3,3,3-tetrafluoropropene (1234yf), 1,1,1,2,2- Pentafluoropropane (245cb) and 1,1,1,2-tetra-fluoro-2 cbloropropane isopropyl chloride (244bb) so that the mol ratio of 245cb Yu 244bb is 1:1- 70:1, preferably 1.5:1-65:1.
-carry out step (i) with mol ratio 3:1-150:1, the preferred 4:1-70:1, more preferably 5:1-50:1 of HF:1233xf.
-3-20 bar, preferred 5-15 bar, more preferably 7-10 bar pressure under carry out step (i).
-200-450 DEG C, carry out step (i) at a temperature of preferred 300-430 DEG C, more preferably 320-420 DEG C.
-6-100 second, preferred 10-80 second, the time of contact of more preferably 15-50 second to carry out step (i).
-at O2And/or Cl2In the presence of carry out step (i).
-O2And/or Cl2The ratio of chloro-relative to 2-3,3,3-tri-fluoro-1-propylene (1233xf) is 0.05-15 mole of %, excellent Select 0.5-10 mole of %.
The step being divided into the first logistics and the second logistics described in-is distilation steps.
-in the presence of polymerization inhibitor, carry out step (i), described polymerization inhibitor be preferably selected from p methoxy phenol, Tert-amyl phenol, limonene, d, 1-limonene, quinone, hydroquinone, epoxide, amine and their mixture.
-carry out step (i) in the presence of the catalyst (preferably loading) of Ni-Cr including.
-described catalyst is supported on aluminium oxide, the chromium oxide of fluorination, the activated carbon of fluorination or graphitic carbon selected from fluorination On carrier.
-in the presence of load or unsupported, the most unsupported catalyst (it is chrome catalysts), carry out step (i)。
-described catalyst farther includes selected from Ni, Co, Zn, Mn or the promoter of their mixture, preferably nickel, And wherein said promoter preferably exists with the amount of about 1-10 weight % of described fluorination catalyst.
-described fluorination catalyst fluorochemical, preferred fluorinated hydrogen activate, and preferably under the pressure higher than 10 bars.
-described method is continuous print.
The present invention includes herein below:
The method that embodiment 1. is used for preparation 2,3,3,3-tetrafluoropropene (1234yf), including:
(i) in the presence of a fluorination catalyst under conditions of being enough to produce reactant mixture by fluoro-for chloro-for 2-3,3,3-tri- 1-propylene (1233xf) contacts in the gas phase with fluohydric acid gas HF;
(ii) described reactant mixture is divided into include the first logistics of HCl, 2,3,3,3-tetrafluoropropene (1234yf) with Including HF, the fluoro-1-propylene of the chloro-3,3,3-of unreacted 2-tri-(1233xf) and 1,1,1,2,2-pentafluoropropane (245cb) Two logistics;
(iii) at least one of second logistics is recycled back into step (i) at least in part.
The method of embodiment 2. embodiment 1, is wherein further separated into HCl and 2 by described first logistics, and 3,3,3-tetra- Fluoropropene (1234yf), preferably with distilation steps.
The method that embodiment 3. is used for preparation 2,3,3,3-tetrafluoropropene (1234yf), including:
(i) in the presence of a fluorination catalyst under conditions of being enough to produce reactant mixture by fluoro-for chloro-for 2-3,3,3-tri- 1-propylene (1233xf) contacts in the gas phase with fluohydric acid gas HF;
(ii) described reactant mixture is divided into HCl and the logistics containing fluorinated product;
(iii) the described logistics containing fluorinated product is divided into includes the first thing of 2,3,3,3-tetrafluoropropene (1234yf) Flow and include HF, the fluoro-1-propylene of the chloro-3,3,3-of unreacted 2-tri-(1233xf) and 1,1,1,2,2-pentafluoropropane (245cb) The second logistics;
(iv) at least one of second logistics is recycled back into step (i) at least in part.
The method of embodiment 4. embodiment any one of 1-3, the described reactant mixture bag wherein obtained in step (i) Include mol ratio be 1:5-3:1, the 2,3,3,3-tetrafluoropropene of preferred 1:4-2:1 (1234yf) and 1,1,1,2,2-pentafluoropropane (245cb)。
The method of embodiment 5. embodiment 4, wherein includes 2 in the described reactant mixture that step (i) obtains, 3,3, 3-tetrafluoropropene (1234yf), 1,1,1,2,2-pentafluoropropane (245cb) and 1,1,1,2-tetra-fluoro-2 cbloropropane isopropyl chloride (244bb), make The mol ratio obtaining 245cb Yu 244bb is 1:1-70:1, preferably 1.5:1-65:1.
The method of embodiment 6. embodiment any one of 1-5, wherein with 3:1-150:1, preferred 4:1-70:1, more preferably Mol ratio HF:1233xf of 5:1-50:1 carries out step (i).
The method of embodiment 7. embodiment any one of 1-6, wherein at 3-20 bar, preferred 5-15 bar, more preferably 7-10 Step (i) is carried out under the pressure of bar.
The method of embodiment 8. embodiment any one of 1-7, wherein 200-450 DEG C, preferred 300-430 DEG C, more excellent Select and at a temperature of 320-420 DEG C, carry out step (i).
The method of embodiment 9. embodiment any one of 1-8, wherein with 6-100 second, preferred 10-80 second, more preferably 15- The time of contact of 50 seconds carries out step (i).
The method of embodiment 10. embodiment any one of 1-9, wherein at O2And/or Cl2In the presence of carry out step (i)。
The method of embodiment 11. embodiment 10, wherein O2And/or Cl2Relative to the fluoro-1-propylene of the chloro-3,3,3-of 2-tri- (1233xf) ratio is 0.05-15 mole of %, preferably 0.5-10 mole %.
The method of embodiment 12. embodiment any one of 1-11, wherein said the first logistics and the second logistics of being divided into Step is distilation steps.
The method of embodiment 13. embodiment any one of 1-12, wherein carries out step in the presence of polymerization inhibitor (i), described polymerization inhibitor is preferably selected from p methoxy phenol, tert-amyl phenol, limonene, d, 1-limonene, quinone, hydroquinone, Epoxide, amine and their mixture.
The method of embodiment 14. embodiment any one of 1-13, is wherein carried out in the presence of including the catalyst of Ni-Cr Step (i), described catalyst is preferably load.
The method of embodiment 15. embodiment any one of 1-14, wherein said catalyst is supported on the oxygen selected from fluorination Change on the carrier of aluminum, the chromium oxide of fluorination, the activated carbon of fluorination or graphitic carbon.
The method of embodiment 16. embodiment any one of 1-14, wherein in load or unsupported, the most unsupported Carrying out step (i) in the presence of catalyst, described catalyst is chrome catalysts.
The method of embodiment 17. embodiment any one of 1-16, wherein said catalyst farther include selected from Ni, Co, Zn, Mn or the promoter of their mixture, preferably nickel, and wherein said promoter is preferably with described fluorination catalyst The amount of about 1-10 weight % of agent exists.
The method of embodiment 18. embodiment any one of 1-17, wherein said fluorination catalyst fluorochemical, excellent Fluohydric acid gas is selected to activate, and preferably under the pressure higher than 10 bars.
The method of any one of embodiment 19. aforementioned embodiments, it is continuous print.
Accompanying drawing explanation
Fig. 1 is the figure representing the possible reaction related in the present invention.
Fig. 2 is the figure representing the method carried out in the present invention.
Fig. 3 is the figure representing the method carried out in the present invention.
Detailed description of the invention
Fig. 1 provides the figure of the potential reaction related in current method.1233xf experiences a series of possible reactions.With The reaction of HF can directly produce 1234yf or produce saturated compound 244bb by additive reaction.This saturated compound Can dehydrochlorination to obtain 1234yf.244bb also can obtain 245cb when being fluorinated with HF.1234yf and 245cb forms balance; The present invention is based on this discovery.The 245cb of any formation can be recycled to the first reaction zone, thus make described balanced sequence (be therefore prevented from 1234yf and be further converted to 245cb).(in the exit of Gas-phase reactor or leaving in recirculation circuit In second logistics of distillation column and the return that returns to Gas-phase reactor) therefore the flow of 245cb be substantial constant.Described Recirculation circuit does not the most occur 245cb accumulate (build up).In this case, the 1233xf being fed in reactor It is converted mainly into 1234yf, because in the most described recirculation circuit of 245cb.
Fig. 2 represents the method carried out in the present invention.1233xf and HF is fed to described Gas-phase reactor.Leave described reaction The reactant mixture of device includes HCl, unreacted 1233xf, unreacted HF, 1234yf, 245cb and a small amount of 244bb.Logical Cross distillation to be divided into by this reactant stream and to include HCl, 1234yf (being likely to be of a small amount of HF, be consequently formed azeotropic mixture) and on a small quantity First logistics (lighter products) of 245cb Yu 1233xf.The logistics of the second heavier, and its bag is obtained in the bottom of distillation column Include HF, 1233xf, 245cb and a small amount of 244bb.Will be containing HCl, 1234yf (there is HF) and the relatively lightweight of other product a small amount of Fraction again distill.Overhead stream includes HCl, and underflow includes 1234yf and HF, and it can use suitable known method again to divide From.Having decant in known method, it produces the stream rich in HF that can be recycled to Gas-phase reactor.This reduces in described method The Oil repellent of middle and lower reaches, produces less by-product (such as the CaF that must abandon2).Process according to known method and leave decant Logistics, including washing and scrubbing (scrubbing) and distillation.
Fig. 3 represents another embodiment, and wherein HCl is removed before occurring by distillation at organic fluoride product in the first step Go.1233xf and HF is fed to described Gas-phase reactor.Leave the reactant mixture of described reactor and include HCl, unreacted 1233xf, unreacted HF, 1234yf, 245cb and a small amount of 244bb.This reactant stream is divided into by the first distillation and mainly containing There are the logistics of HCl and another logistics containing other product.This another logistics is divided into by distillation and includes that 1234yf (is likely to be of A small amount of HF, is consequently formed azeotropic mixture) and first logistics (lighter products) of a small amount of 245cb Yu 1233xf.At distillation column Bottom obtains the logistics of the second heavier, and it includes HF, 1233xf, 245cb and a small amount of 244bb.At after-fractionating tower Top obtains containing 1234yf (having HF) and the relatively lightweight fraction of other product a small amount of.This overhead stream can use suitable known formula Method separates again.Having decant in known method, it produces the HF stream that can be recycled to Gas-phase reactor.This reduces described side The Oil repellent of method middle and lower reaches, produces less by-product (such as the CaF that must abandon2).Process to leave according to known method and incline The logistics of analysis, including washing and scrubbing and distillation.
Applicant have discovered that the logistics leaving described Gas-phase reactor has specific group due to the recirculation of 245cb Become.Therefore, the present invention also provides for compositions, and it contains 2,3,3,3-tetrafluoropropenes (1234yf), 1,1,1,2,2-pentafluoropropane (245cb) He 1,1,1,2-tetra-fluoro-2 cbloropropane isopropyl chloride (244bb) so that the mol ratio of 245cb Yu 244bb is 1:1-70:1, and The mol ratio of 1234yf:245cb is 1:5-3:1;The mol ratio of preferably 245cb Yu 244bb is 1.5:1-65:1, and 1234yf: The mol ratio of 245cb is 1:4-2:1.Described compositions may also include 1233xf, and optionally other compound such as unreacted HF and HCl.
The reaction of described gas phase is carried out in the presence of a fluorination catalyst.Described reaction is carried out in single Gas-phase reactor.
Conversion ratio and the selectivity level of required product can change according to treatment conditions.Described catalyst can arbitrarily close Presented in Shi, such as fixing or fluid bed, preferably with fixed bed.Flow direction can be downward or upward.
For example, based on metal the catalyst of this catalyst, it includes the derivative of transition metal oxide or such metal Thing or halogenide or oxyhalide.Catalyst is such as FeCl3, chromium oxyfluoride, (it is optionally fluorinated chromated oxide Process), chromium fluoride and their mixture.Other possible catalyst is based on antimony being supported on C catalyst Catalyst, catalyst based on aluminum are (such as AlF3And Al2O3And the oxyfluoride of aluminium oxide and aluminium fluoride).It is said that in general, can make Catalyst be chromium oxyfluoride, aluminium fluoride and oxyfluoride and load or unsupported containing metal such as Cr, Ni, The catalyst of Zn, Ti, V, Zr, Mo, Ge, Sn, Pb, Mg.Reference may also be made to WO-A-2007/079431 at page 7 1-5 and 28-32 OK, EP-A-939071 is in [0022] section, and WO 2008/054781 is at page 9 22 row to page 10 34 row, WO 2008/040969 Disclosure in claim 1, is all incorporated herein by.
Before the use of catalyst, by described catalyst HF under high pressure, be typically greater than about 10 bars (typically exist Under pressure higher than the pressure used in described gas phase process) activate, as described at US-A-7485598, pass through It is incorporated herein by reference.
Preferred embodiment using specific catalyst, it is mixed catalyst, containing chromium and nickel.About metal Mol ratio Cr:Ni of element is usually 0.5-5, such as 0.7-2, including close to 1.Described catalyst can be containing by weight The chromium of 0.5-20% and each metal of the nickel of 0.5-20%, preferably 2-10%.
Described metal can be using metallic forms or as the derivant existence including oxide, halogenide or oxyhalide.Bag These derivants including halogenide or oxyhalide are obtained by the activation of catalytic metal.Although the activation of described metal is not must Want, but it is preferred.
Carrier is preferably made of aluminium.There is some possible carriers such as aluminium oxide, activated alumina or aluminum derivant.This A little derivants include the oxyhalide of aluminium halogenide and aluminum, such as described in the US-P-4902838, or retouched by following The activation method stated obtains.
Described catalyst may be included in and carried out or do not carried out the disactivation on the carrier that activates or the chromium of activated form And nickel.
Refer to WO 2009/118628, and particularly page 4 30 row be to the disclosure of the catalyst of page 7 16 row, It is incorporated herein by.
According to another embodiment, described method uses the catalyst based on Cr of high surface, and it is the most unsupported 's.Described catalyst optionally contains one or more promoters low-level such as Co, Zn, Mn, Mg and Ni salt.Preferably Promoter be nickel.Another preferred promoter is Zn.
The most unsupported chrome catalysts optionally contains the low-level one selected from cobalt, nickel, zinc or manganese or many Planting promoter, it is by preparations such as methods known in the art such as dipping, mixed-powder.Described catalyst can be load or not Load.For load catalyst, catalyst carrier can be selected from known in the art under higher temperature and pressure with HF phase The material held.Such as, the graphite of activated carbon, graphite or the fluorination of the aluminium oxide of fluorination, pre-fluorination is suitable catalyst carrier. Preferably chrome catalysts is the unsupported chromium oxide catalyst of high surface.Described catalyst activates before the use.Institute Stating activation of catalyst and typically comprise the high pressure program higher than 10 bars, wherein catalyst bed is heated to about 370-380 DEG C, preferably adopts With the continuous stream of nitrogen, afterwards the mixture approximating isopyknic HF and air or nitrogen (preferably nitrogen) is fed to catalyst On bed.Described catalyst activation process can be incorporated herein by as described at US7485598.Having of other fluorination Machine compound such as CHF2Cl、CHF3、CF3CH2F、CF3CH2Cl etc. can be used for activating.Typically, high pressure catalyst activation program consumption Take about 18 hours.
The high-pressure activated catalyst obtained has high surface, e.g., from about 20-about 250 meters squared per gram.Oil repellent typical case Ground changes between about 20-25 weight %.Pore volume has 0.1-0.4m3The meansigma methods of/g.Crushing strength is typically about 8- 15kg/g.Abrasion percentage ratio (percent attrition) typically average out to 1-5 weight %.Cr(VI)Level typically exists In the range of 100-300ppm.
When there is promoter, the level of described promoter can be between 1-10 weight %, preferably in 1-5 weight % Between change.By methods known in the art to promoter can be added described catalyst, described method such as from water or Organic solution is adsorbed, subsequently solvent evaporation.Preferably catalyst is using nickel or zinc as promoter in this embodiment Pure chromated oxide.Alternatively, described promoter can be with described catalyst by grinding and physical mixed is closely mixed to produce Compound.The catalyst substituted is the chromium/Raney nickel of load mixing on fluorided alumina.It is incorporated herein by US5731481 discloses the method for the catalyst preparing this replacement, and it will activate as described above.
Such as, available catalyst in the present invention can be prepared as follows.HF and nitrogen activation is used at 16 bars and 350 DEG C Cr2O3Catalyst.The chemical and physical features of the catalyst obtained shows in the following table.
%F content weight % 22.2
Surface area m2/g1 43.9
Pore volume m3/g2 0.19
Crushing strength kg/g3 10.6
Cr+VIContent ppm 201
% weares and teares4 3.9
1. determine surface area by Micrometrics ASAP 2400 via BET specific surface area.
2. pore volume uses dimethylbenzene porosity measurement to evaluate.
3. crushing strength is evaluated by following: apply the compression ratio of regulation, until the integrity of catalyst is compromised.
4. abrasion percentage ratio is by using the ASTM D-4058-92 standard method of test for abrasion to evaluate.
The method of the present invention is run the most continuously.
1233xf fluorination process relates to 1233xf is converted into being enough to 1233xf with HF the most in the gas phase Contact under conditions of the fluorinated product of 245cb including unreacted 1233xf, 1234yf.Such condition is provided below. Additionally, other common property of producing as the part of fluorination reaction raw the most fully fluorinated (carry out being fluorinated, Underfluorinated) intermediate such as 244bb (it can exist on a small quantity) and unreacted 1233xf is also recycled to instead Answer device.The logistics of recirculation contains the heavy fraction of the reaction logistics separated in described distilation steps, and contains especially There is the 245cb of balance.
Typically, walk with mol ratio HF:1233xf of 3:1-150:1, preferred 4:1-70:1, more preferably 5:1-50:1 Suddenly (i).
Typically, pressure 3-20 bar, preferred 5-15 bar, more preferably 7-10 bar pressure under carry out step (i).
Typically, 200-450 DEG C, carry out step (i) at a temperature of preferred 300-430 DEG C, more preferably 320-420 DEG C. Bed temperature can be substantially uniform in the reactor, or can along logistics path adjust, along flow direction reduction or Increase.
Time of contact (, divided by reactant and co-fed total flow, regulation is to operating pressure and temperature for catalyst volume) allusion quotation It it is 6-100 second, preferred 10-80 second, more preferably 15-50 second type.
Oxygen can be used co-fed or chlorine is co-fed to extend catalyst life, typically with every 1230xa0.05-15 Mole %, the oxygen of preferred 0.5-10 mole of % or the amount of chlorine.Described oxygen can be as oxygenous gas such as air, pure Oxygen or oxygen/nitrogen mixture introduce.Chlorine can draw as the purest chlorine of the gas containing chlorine or chlorine/nitrogen mixture Enter.
Can use polymerization inhibitor with extend catalyst life-span, typically with about 50-1000ppm, more preferably 100- The concentration of 500ppm.Described polymerization inhibitor can be p methoxy phenol, tert-amyl phenol, limonene, d, 1-limonene, quinone, Hydroquinone, epoxide, amine and their mixture.Preferably polymerization inhibitor is p methoxy phenol or tert-amyl phenol. The co-fed such polymerization controlling chloro-alkenes of low-level polymerization inhibitor also extends life-span of catalyst, as Described in US5714651, it is incorporated herein by.
Can be in same position, at diverse location or use sectional feeding in the segmentation position along reactor by reactant It is fed to reactor.Preferably feed system is the bottom blowing state reactant at reactor.Recirculation can entering at reactor The interlude of mouth or reactor is carried out, preferably at the entrance of reactor.
In another embodiment, the reaction logistics leaving Gas-phase reactor can be divided into the first light stream and carrying out It is partially recycled to reactor before two heavy end stream.Described recirculation ratio may be up to 0.7.This recirculation allows dilution very Reactive 1233xf also avoids polymerization.
React and implement in the special purpose reactor for the reaction relating to halogen.Such reactor is people in the art Member is known and can include based on such asOr the liner of fluoropolymer.As Fruit is necessary, and described reactor may also include heat-exchange apparatus.
Percentage ratio is molar percentage as used in this article, except as otherwise noted.
The following example explanation present invention, but it is not intended to the present invention.
Embodiment
In the examples below that, catalyst n i-Cr/AlF obtained as below is used3.The catalyst used is following mixing Conjunction catalyst: the atomic ratio Ni/Cr=1 of ni cr, loads on fluorided alumina, and by dipping nickel and chromic anhydride (CrO3) Solution prepare.After impregnating and being dried, in mixture (this acid of Fluohydric acid. and nitrogen at a temperature of 320 DEG C-390 DEG C Volumetric concentration in nitrogen is 5-10%) in the presence of process this solid.Catalyst bed is placed in and is welded under reactor On the grid of end.Described reactor in three positions along catalyst bed equipped with temperature measuring equipment.
The fluorination of embodiment 1:1233xf.
By the catalyst n i-Cr/AlF of 150ml3Introduce reactor.To the HF of described reactor feed 16.4g/h and 4.1g/h 1233xf.Reaction temperature is 352 DEG C and atmospheric pressure.HF/1233xf mol ratio is 26.9 and time of contact is 4.9 Second.Then conversion ratio is 10.3%.(amount of a kind of product is divided by the product sum responded, it means that do not wrap for selectivity Include 1233xf) be 1234yf be 71.4%, 245cb be 22.7%.Itself it detects that minority specioz be: 244bb, 1234ze And 245fa.(exit gas stream contain 89.13 moles of %1233xf, 7.75 moles of %1234yf, 2.47 moles of %245cb and 0.65 mole of % other).
Embodiment 2-6: balance 1234yf/245cb.
The fluorination reaction of 1233xf is carried out according to above-described embodiment 1.The stream of regulation HF and 1233xf is to obtain close to 5 rub You are ratio HF/1233xf, but change time of contact: 9.5,18.8,26.7,37.9 and 39 seconds.The product of main acquisition is 1234yf and 245cb (if getting rid of the 1233xf converted the most completely).1234yf and 245cb mole of composition is summed up in Table 1. It may be concluded that balance between 1234yf and 245cb.
Embodiment 7
Carry out with the amount of 60ml catalyst in the reactor of introducing 60ml according to the embodiment described in embodiment 1 The fluorination reaction of 1233xf.Add 245cb to charging.The flow of 245cb be the flow of 2.1g/hr, 1233xf be 4.5g/h, And the flow of HF is 16.2g/h.Therefore, 100 moles of 1233xf and 47 moles of 245cb are used together.HF/1233xf mol ratio Equal to 24.5 and time of contact is equal to 4.8s.It is continuously added to air to keep the life-span of catalyst.The amount of the oxygen introduced is to rub You compare O2/ (1233xf+245cb) represents and equal to 0.5%.A mole composition for the gas left passes through chromatographic: 60.6%1233xf, 26.6%1234yf, 12.4%245cb and some other impurity.(89.08 moles of 1233xf;39.07 rub You are 1234yf;18.17 moles of 245cb and 0.72mol other).

Claims (17)

1. for the method for preparation 2,3,3,3-tetrafluoropropene (1234yf), including:
(i) in the presence of a fluorination catalyst under conditions of being enough to produce reactant mixture by chloro-for the 2-fluoro-1-of 3,3,3-tri-third Alkene (1233xf) contacts in the gas phase with fluohydric acid gas HF;
(ii) described reactant mixture is divided into the first logistics including HCl, 2,3,3,3-tetrafluoropropene (1234yf) and includes HF, the fluoro-1-propylene of the chloro-3,3,3-of unreacted 2-tri-(1233xf) and the second thing of 1,1,1,2,2-pentafluoropropane (245cb) Stream;
(iii) at least one of second logistics is recycled back into step (i) at least in part,
Wherein time of contact is the 15-50 second.
2. the process of claim 1 wherein that described method is continuous print.
3. for the method for preparation 2,3,3,3-tetrafluoropropene (1234yf), including:
(i) in the presence of a fluorination catalyst under conditions of being enough to produce reactant mixture by chloro-for the 2-fluoro-1-of 3,3,3-tri-third Alkene (1233xf) contacts in the gas phase with fluohydric acid gas HF;
(ii) described reactant mixture is divided into HCl and the logistics containing fluorinated product;
(iii) the described logistics containing fluorinated product is divided into include the first logistics of 2,3,3,3-tetrafluoropropene (1234yf) with Including HF, the fluoro-1-propylene of the chloro-3,3,3-of unreacted 2-tri-(1233xf) and 1,1,1,2,2-pentafluoropropane (245cb) Two logistics;
(iv) at least one of second logistics is recycled back into step (i) at least in part,
Wherein at O2And/or Cl2In the presence of carry out step (i),
It is continuous print with wherein said method.
4. the method for any one of claim 1-3, the described reactant mixture wherein carrying out separating in step (ii) includes mole Than being the 2,3,3,3-tetrafluoropropene (1234yf) of 1:5-3:1 and 1,1,1,2,2-pentafluoropropane (245cb).
5. the method for claim 4, the described reactant mixture wherein carrying out separating in step (ii) includes 2,3,3,3-tetrafluoros Propylene (1234yf), 1,1,1,2,2-pentafluoropropane (245cb) and 1,1,1,2-tetra-fluoro-2 cbloropropane isopropyl chloride (244bb) so that The mol ratio of 245cb Yu 244bb is 1:1-70:1.
6. the method for claim 1 or 3, wherein carries out step (i) with mol ratio HF:1233xf of 3:1-150:1.
7. the method for claim 1 or 3, wherein carries out step (i) under the pressure of 3-20 bar.
8. the method for claim 1 or 3, wherein carries out step (i) at a temperature of 200-450 DEG C.
9. the method for any one of claim 1 or 3, wherein to carry out step (i) time of contact of 6-100 second.
10. the method for any one of claim 1 or 3, wherein O2And/or Cl2Relative to the fluoro-1-propylene of the chloro-3,3,3-of 2-tri- (1233xf) ratio is 0.05-15 mole of %.
The method of 11. any one of claim 1 or 3, the wherein said step being divided into the first logistics and the second logistics is distillation step Suddenly.
The method of 12. any one of claim 1 or 3, wherein carries out step (i) in the presence of polymerization inhibitor.
The method of 13. any one of claim 1 or 3, wherein carries out step (i) in the presence of including the catalyst of Ni-Cr, described Catalyst is unsupported or load.
The method of 14. any one of claim 1 or 3, wherein said catalyst is supported on the aluminium oxide selected from fluorination, the oxygen of fluorination Change on the carrier of chromium, the activated carbon of fluorination or graphitic carbon.
The method of 15. any one of claim 1 or 3, wherein carries out step (i) in the presence of load or unsupported catalyst, Described catalyst is chrome catalysts.
The method of 16. any one of claim 1 or 3, wherein said catalyst farther include selected from Ni, Co, Zn, Mn or they The promoter of mixture.
The method of 17. any one of claim 1 or 3, wherein said fluorination catalyst fluorochemical activates.
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